多温度限制点条件下燃油热管理系统热回油特性分析

热回油是提高飞行器燃油热管理系统性能的重要途径。为研究多温度限制点条件下燃油热管理系统的热回油特性,该文基于Python语言自主开发了燃油热管理系统稳态仿真模型,并进行了实验验证。首先分析了热回油流量对各温度限制点温度的影响规律,结果表明热回油流量的增加并不一定使得全部温度限制点的温度均下降,甚至导致了供油箱出口温度和热回油阀出口温度的升高,这说明过大或过小的热回油流量均可能引发燃油热管理系统的失效,热回油流量存在满足温度限制要求的变化区间。对于飞机热载荷加热器出口温度和燃油喷嘴出口温度,存在热回油临界流量,当热回油流量达到临界值时,进一步增加热回油会提升系统超温的风险。随后探究了热回油作用下系统的飞机热载荷极限,发现飞机热载荷极限对应于热回油流量限制区间的大小突变为0的临界状态,且此时限制区间的下界是系统的热回油临界流量。进一步研究发现,当飞机热载荷加热器出口温度和燃油喷嘴出口温度在极限状态下同时达到各自的限制值时,系统达到正常工作时的总热载荷极限。为了充分利用系统的总热载荷极限,该文提出了可以实现系统热载荷之间相互传递的中间回路并给出了潜在方案,为飞发一体化热管理提供了一种优化途径。

航空发动机燃油热管理系统仿真及试验验证

为充分利用燃油作为热沉介质,发挥其最大效益,针对航空发动机燃油热管理系统开展了AMESim建模仿真及试验验证。结果表明,主泵出口燃油温升的仿真与试验结果误差最大为2.99℃,热回油温升的仿真与试验结果误差最大为6.81℃。发动机典型状态点下,燃油热管理系统热回油温度和喷嘴前温度的仿真与试验结果差异在5℃以内,仿真模型置信度较高。研究结果可为技术人员开展航空发动机燃油热管理系统方案设计和评估提供参考。

水冷螺杆式冷水机组回油技术探讨

水冷螺杆式冷水机组的蒸发器回油是机组可靠性的关键,本文主要探讨气泵回油、热虹吸回油和引射器回油这3种回油方式在水冷螺杆式冷水机组中的应用。通过其工作原理和测试结果,分析3种回油方式的回油效果以及优缺点。

Experimental investigation on diesel engine's waste heat capacity under mapping characteristics

Waste heat recovery for internal combustion engine(ICE)has been considered as an important strategy to improve efficiency and promote fuel economy,thus alleviating the problems of energy shortage and environmental pollution.This paper investigates the characteristics of various kinds of waste heat energy,namely,waste heat in exhaust,cooling water and charge air,over the engine’s whole operating region.Based on the energy balance experiments,the energy distribution of a conventional heavy-duty diesel engine is obtained under mapping characteristics.According to exergy analysis,the energy recovery potential for waste heat is studied as well.The experimental results indicate that exhaust energy increases with engine speed and load,while cooling water energy is more sensitive to load,especially at low and middle speed.Charge air energy,on the other hand,mainly counts on speed rather than load.Exhaust energy possesses the highest recovery potential in terms of both quantity and quality.Through waste heat recovery,a dramatic improvement in engine efficiency is achievable,actually,the maximum value can amount to 60%or even more.